Resource use efficiency of indoor lettuce (Lactuca sativa L.) cultivation as affected by red:blue ratio provided by LED lighting

LED lighting in indoor farming systems allows to modulate the spectrum to fit plant needs. Red (R) and blue (B) lights are often used, being highly active for photosynthesis. The effect of R and B spectral components on lettuce plant physiology and biochemistry and resource use efficiency were studi...

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Published inScientific reports Vol. 9; no. 1; pp. 14127 - 11
Main Authors Pennisi, Giuseppina, Orsini, Francesco, Blasioli, Sonia, Cellini, Antonio, Crepaldi, Andrea, Braschi, Ilaria, Spinelli, Francesco, Nicola, Silvana, Fernandez, Juan A., Stanghellini, Cecilia, Gianquinto, Giorgio, Marcelis, Leo F. M.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.10.2019
Nature Publishing Group
Subjects
101/58
14/63
631/449/2661/2662
704/172/4081
Chlorophyll
Chlorophyll - metabolism
Color
Conductance
Controlled conditions
Cultivation
Daylength
Efficiency
Farming systems
Flavonoids
Humanities and Social Sciences
Lactuca - metabolism
Lactuca - physiology
Lettuce
Light
Lighting
Lighting - methods
Magnesium
multidisciplinary
Phosphorus
Photoperiod
Photosynthesis
Photosynthesis - physiology
Photosystem II
Photosystem II Protein Complex - metabolism
Photosystem II Protein Complex - physiology
Plant Leaves - metabolism
Plant Leaves - physiology
Plant physiology
Resource efficiency
Science
Science (multidisciplinary)
Stomata
Stomatal conductance
Transpiration
Water use
Water use efficiency
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Abstract LED lighting in indoor farming systems allows to modulate the spectrum to fit plant needs. Red (R) and blue (B) lights are often used, being highly active for photosynthesis. The effect of R and B spectral components on lettuce plant physiology and biochemistry and resource use efficiency were studied. Five red:blue (RB) ratios (0.5-1-2-3-4) supplied by LED and a fluorescent control (RB = 1) were tested in six experiments in controlled conditions (PPFD = 215 μmol m −2 s −1 , daylength 16 h). LED lighting increased yield (1.6 folds) and energy use efficiency (2.8 folds) as compared with fluorescent lamps. Adoption of RB = 3 maximised yield (by 2 folds as compared with RB = 0.5), also increasing leaf chlorophyll and flavonoids concentrations and the uptake of nitrogen, phosphorus, potassium and magnesium. As the red portion of the spectrum increased, photosystem II quantum efficiency decreased but transpiration decreased more rapidly, resulting in increased water use efficiency up to RB = 3 (75 g FW L −1 H 2 O). The transpiration decrease was accompanied by lower stomatal conductance, which was associated to lower stomatal density, despite an increased stomatal size. Both energy and land surface use efficiency were highest at RB ≥ 3. We hereby suggest a RB ratio of 3 for sustainable indoor lettuce cultivation.
AbstractList LED lighting in indoor farming systems allows to modulate the spectrum to fit plant needs. Red (R) and blue (B) lights are often used, being highly active for photosynthesis. The effect of R and B spectral components on lettuce plant physiology and biochemistry and resource use efficiency were studied. Five red:blue (RB) ratios (0.5-1-2-3-4) supplied by LED and a fluorescent control (RB = 1) were tested in six experiments in controlled conditions (PPFD = 215 μmol m−2 s−1, daylength 16 h). LED lighting increased yield (1.6 folds) and energy use efficiency (2.8 folds) as compared with fluorescent lamps. Adoption of RB = 3 maximised yield (by 2 folds as compared with RB = 0.5), also increasing leaf chlorophyll and flavonoids concentrations and the uptake of nitrogen, phosphorus, potassium and magnesium. As the red portion of the spectrum increased, photosystem II quantum efficiency decreased but transpiration decreased more rapidly, resulting in increased water use efficiency up to RB = 3 (75 g FW L−1 H2O). The transpiration decrease was accompanied by lower stomatal conductance, which was associated to lower stomatal density, despite an increased stomatal size. Both energy and land surface use efficiency were highest at RB ≥ 3. We hereby suggest a RB ratio of 3 for sustainable indoor lettuce cultivation.
LED lighting in indoor farming systems allows to modulate the spectrum to fit plant needs. Red (R) and blue (B) lights are often used, being highly active for photosynthesis. The effect of R and B spectral components on lettuce plant physiology and biochemistry and resource use efficiency were studied. Five red:blue (RB) ratios (0.5-1-2-3-4) supplied by LED and a fluorescent control (RB = 1) were tested in six experiments in controlled conditions (PPFD = 215 μmol m −2 s −1 , daylength 16 h). LED lighting increased yield (1.6 folds) and energy use efficiency (2.8 folds) as compared with fluorescent lamps. Adoption of RB = 3 maximised yield (by 2 folds as compared with RB = 0.5), also increasing leaf chlorophyll and flavonoids concentrations and the uptake of nitrogen, phosphorus, potassium and magnesium. As the red portion of the spectrum increased, photosystem II quantum efficiency decreased but transpiration decreased more rapidly, resulting in increased water use efficiency up to RB = 3 (75 g FW L −1 H 2 O). The transpiration decrease was accompanied by lower stomatal conductance, which was associated to lower stomatal density, despite an increased stomatal size. Both energy and land surface use efficiency were highest at RB ≥ 3. We hereby suggest a RB ratio of 3 for sustainable indoor lettuce cultivation.
LED lighting in indoor farming systems allows to modulate the spectrum to fit plant needs. Red (R) and blue (B) lights are often used, being highly active for photosynthesis. The effect of R and B spectral components on lettuce plant physiology and biochemistry and resource use efficiency were studied. Five red:blue (RB) ratios (0.5-1-2-3-4) supplied by LED and a fluorescent control (RB = 1) were tested in six experiments in controlled conditions (PPFD = 215 μmol m-2 s-1, daylength 16 h). LED lighting increased yield (1.6 folds) and energy use efficiency (2.8 folds) as compared with fluorescent lamps. Adoption of RB = 3 maximised yield (by 2 folds as compared with RB = 0.5), also increasing leaf chlorophyll and flavonoids concentrations and the uptake of nitrogen, phosphorus, potassium and magnesium. As the red portion of the spectrum increased, photosystem II quantum efficiency decreased but transpiration decreased more rapidly, resulting in increased water use efficiency up to RB = 3 (75 g FW L-1 H2O). The transpiration decrease was accompanied by lower stomatal conductance, which was associated to lower stomatal density, despite an increased stomatal size. Both energy and land surface use efficiency were highest at RB ≥ 3. We hereby suggest a RB ratio of 3 for sustainable indoor lettuce cultivation.LED lighting in indoor farming systems allows to modulate the spectrum to fit plant needs. Red (R) and blue (B) lights are often used, being highly active for photosynthesis. The effect of R and B spectral components on lettuce plant physiology and biochemistry and resource use efficiency were studied. Five red:blue (RB) ratios (0.5-1-2-3-4) supplied by LED and a fluorescent control (RB = 1) were tested in six experiments in controlled conditions (PPFD = 215 μmol m-2 s-1, daylength 16 h). LED lighting increased yield (1.6 folds) and energy use efficiency (2.8 folds) as compared with fluorescent lamps. Adoption of RB = 3 maximised yield (by 2 folds as compared with RB = 0.5), also increasing leaf chlorophyll and flavonoids concentrations and the uptake of nitrogen, phosphorus, potassium and magnesium. As the red portion of the spectrum increased, photosystem II quantum efficiency decreased but transpiration decreased more rapidly, resulting in increased water use efficiency up to RB = 3 (75 g FW L-1 H2O). The transpiration decrease was accompanied by lower stomatal conductance, which was associated to lower stomatal density, despite an increased stomatal size. Both energy and land surface use efficiency were highest at RB ≥ 3. We hereby suggest a RB ratio of 3 for sustainable indoor lettuce cultivation.
LED lighting in indoor farming systems allows to modulate the spectrum to fit plant needs. Red (R) and blue (B) lights are often used, being highly active for photosynthesis. The effect of R and B spectral components on lettuce plant physiology and biochemistry and resource use efficiency were studied. Five red:blue (RB) ratios (0.5-1-2-3-4) supplied by LED and a fluorescent control (RB = 1) were tested in six experiments in controlled conditions (PPFD = 215 μmol m s , daylength 16 h). LED lighting increased yield (1.6 folds) and energy use efficiency (2.8 folds) as compared with fluorescent lamps. Adoption of RB = 3 maximised yield (by 2 folds as compared with RB = 0.5), also increasing leaf chlorophyll and flavonoids concentrations and the uptake of nitrogen, phosphorus, potassium and magnesium. As the red portion of the spectrum increased, photosystem II quantum efficiency decreased but transpiration decreased more rapidly, resulting in increased water use efficiency up to RB = 3 (75 g FW L H O). The transpiration decrease was accompanied by lower stomatal conductance, which was associated to lower stomatal density, despite an increased stomatal size. Both energy and land surface use efficiency were highest at RB ≥ 3. We hereby suggest a RB ratio of 3 for sustainable indoor lettuce cultivation.
ArticleNumber 14127
Author Blasioli, Sonia
Crepaldi, Andrea
Fernandez, Juan A.
Orsini, Francesco
Nicola, Silvana
Gianquinto, Giorgio
Cellini, Antonio
Marcelis, Leo F. M.
Pennisi, Giuseppina
Spinelli, Francesco
Stanghellini, Cecilia
Braschi, Ilaria
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  email: f.orsini@unibo.it
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  organization: Flytech s.r.l
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  organization: DISTAL – Department of Agricultural and Food Sciences, ALMA MATER STUDIORUM – Bologna University
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  surname: Spinelli
  fullname: Spinelli, Francesco
  organization: DISTAL – Department of Agricultural and Food Sciences, ALMA MATER STUDIORUM – Bologna University
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  orcidid: 0000-0003-4458-5939
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  givenname: Cecilia
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  givenname: Leo F. M.
  surname: Marcelis
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  organization: Horticulture & Product Physiology Group, Wageningen University
BackLink https://www.ncbi.nlm.nih.gov/pubmed/31576006$$D View this record in MEDLINE/PubMed
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Snippet LED lighting in indoor farming systems allows to modulate the spectrum to fit plant needs. Red (R) and blue (B) lights are often used, being highly active for...
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SubjectTerms 101/58
14/63
631/449/2661/2662
704/172/4081
Chlorophyll
Chlorophyll - metabolism
Color
Conductance
Controlled conditions
Cultivation
Daylength
Efficiency
Farming systems
Flavonoids
Humanities and Social Sciences
Lactuca - metabolism
Lactuca - physiology
Lettuce
Light
Lighting
Lighting - methods
Magnesium
multidisciplinary
Phosphorus
Photoperiod
Photosynthesis
Photosynthesis - physiology
Photosystem II
Photosystem II Protein Complex - metabolism
Photosystem II Protein Complex - physiology
Plant Leaves - metabolism
Plant Leaves - physiology
Plant physiology
Resource efficiency
Science
Science (multidisciplinary)
Stomata
Stomatal conductance
Transpiration
Water use
Water use efficiency
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Title Resource use efficiency of indoor lettuce (Lactuca sativa L.) cultivation as affected by red:blue ratio provided by LED lighting
URI https://link.springer.com/article/10.1038/s41598-019-50783-z
https://www.ncbi.nlm.nih.gov/pubmed/31576006
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https://pubmed.ncbi.nlm.nih.gov/PMC6773742
Volume 9
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